M. Amorim, J. Römbke, H. J. Schallnass, and A. Soares, Effect of soil properties and aging 257 on the toxicity of copper for Enchytraeus albidus, Enchytraeus luxuriosus, and Folsomia 258 candida, Environ Toxicol Chem, vol.24, pp.1875-1885, 2005.

M. Amorim and J. J. Scott-fordsmand, Toxicity of copper nanoparticles and CuCl2 salt to 260, 2012.

, Enchytraeus albidus worms: Survival, reproduction and avoidance responses, Environ 261 Pollut, vol.164, pp.164-168

A. Andre, S. C. Antunes, F. Goncalves, and R. Pereira, Bait -lamina assays as a tool to access 263 the effects of metal contamination in the feeding activity of soil invertebrates within a 264 uranium mine area, Environ Pollut, vol.157, pp.2368-2377, 2009.

S. Bart, C. Laurent, A. Péry, C. Mougin, and C. Pelosi, Differences in sensitivity between 266 earthworms and enchytraeids exposed to two commercial fungicides, Ecotoxicol Environ, vol.267, pp.177-184, 2017.

F. Chabauty, V. Pot, M. Bourdat-deschamps, N. Bernet, C. Labat et al., Transport of 269 organic contaminants in subsoil horizons and effects of dissolved organic matter related to 270 organic waste recycling practices, Environ Sci Pollut Res Int, vol.23, issue.7, pp.6907-6918, 2016.

R. R. Couto, L. Benedet, J. J. Comin, B. Filho, P. Martins et al., Accumulation of copper and zinc fractions in 273 vineyard soil in the mid-western region of Santa Catarina, Brazil. Environ Earth Sci, vol.274, issue.10, pp.6379-6386, 2015.

W. Didden, Involvement of Enchytraeidae (Oligochaeta) in soil structure evolution 276 in agricultural fields, Biol Fertil Soils, vol.9, pp.152-158, 1990.

W. Didden and J. Römbke, Enchytraeids as indicator organisms for chemical stress in 278 terrestrial ecosystems, Ecotoxicol Environ Saf, vol.50, pp.25-43, 2001.

D. Silva, P. M. Pathiratne, A. Van-gestel, and C. A. , Influence of temperature and soil type on the 280 toxicity of three pesticides to Eisenia andrei, Chemosphere, vol.76, pp.1410-1415, 2009.

, Conclusion on the peer review of dimoxystrobin, vol.46, pp.1-82, 2005.

P. Filzek, D. J. Spurgeon, G. Broll, C. Svendsen, P. K. Hankard et al., Metal 284 effects on soil invertebrate feeding: Measurements using the bait lamina method, 2004.

, Ecotoxicology, vol.13, pp.807-816

J. Harmsen, Measuring bioavailability: from a scientific approach to standard methods, J 287 Environ Qual, vol.36, pp.1420-1428, 2007.

B. Helling, G. Pfeiff, and O. Larink, A comparison of feeding activity of collembolan and 289 enchytraeid in laboratory studies using the bait-lamina test, Appl Soil Ecol, vol.7, pp.207-212, 1998.

D. G. Hole, A. J. Perkins, J. D. Wilson, I. H. Alexander, P. V. Grice et al., Does organic 291 farming benefit biodiversity?, Biol Conserv, vol.122, pp.113-130, 2005.

, ISO (International Organisation for Standardization) (2014) Soil Quality -Effects of 293 Contaminants on Enchytraeidae (Enchytraeus sp.) -Determination of Effects on 294 Reproduction

, ISO (International Organisation for Standardization) (2016) Soil quality -Method for testing 296 effects of soil contaminants on the feeding activity of soil dwelling organisms -Bait-297 lamina test

S. Jänsch, M. Garcia, and J. Römbke, Acute and chronic isopod testing using tropical 299, 2005.

, Porcellionides pruinosus and three model pesticides, Eur J Soil Biol, vol.41, pp.143-152

W. Kratz, The bait-lamina test: general aspects, applications and perspectives, Environ, vol.301, 1998.

, Sci Pollut Res Int, vol.5, pp.94-96

C. Kula and J. Römbke, Evaluation of soil ecotoxicity test with functional endpoints for risk 303 assessment of plant protection products: State of the art, Environ Sci Pollut Res, vol.5, pp.94-96, 1998.

O. Larink, Bait lamina as a tool for testing feeding activity of animals in contaminated 305 soils, Ecotoxicology of soil organisms, p.306, 1993.

L. Q. Ma and G. N. Rao, Chemical fractionation of cadmium, copper, nickel, and zinc in 308 contaminated soils, J Environ Qual, vol.26, pp.259-264, 1997.

K. Maraldo, B. Christensen, and M. Holmstrup, The excretion of ammonium by enchytraeids 310 (Cognettia sphagnetorum), Soil Biol Biochem, vol.43, pp.991-996, 2011.

J. Mcdonald, L. Gaston, T. Elbana, K. Andres, and E. Crandfield, Dimoxystrobin sorption and 312 degradation in sandy loam soil: impact of different landscape positions, Soil Sci, vol.178, pp.662-313, 2013.

, Guidelines for testing of chemicals -Enchytraeid Reproduction Test. OECD 315 (Organization for Economic Cooperation andDevelopment), OECD, vol.220, 2016.

C. Pelosi and J. Römbke, Are Enchytraeidae (Oligochaeta, Annelida) good indicators of 317 agricultural management practices?, Soil Biol Biochem, vol.100, pp.255-263, 2016.

J. Römbke, R. M. Schmelz, and C. Pelosi, Effects of Organic Pesticides on Enchytraeids 319 (Oligochaeta) in Agroecosystems: Laboratory and Higher-Tier Tests, Front Environ Sci, vol.320, p.20, 2017.

D. Tilman, J. Fargione, B. Wolff, D. Antonio, C. Dobson et al., Forecasting 322 agriculturally driven global environmental change, Science, vol.292, pp.281-284, 2001.

N. Zhian and . Kamvar, ezec: Easy Interface to Effective Concentration Calculations, 2016.

. E-phy, , 2017.

. E-phy, , 2017.